DE589921C - Electromagnetic overcurrent switch with knee joint contact - Google Patents

Description

In the case of electromagnetic overcurrent switches, the distance between the tripping magnet is and the toggle levers during the switch-on movement and in the switch-on position. But since it is for the even How the switch works it is important that the triggering always takes place under the same force conditions, one has the most varied Devices devised to provide the necessary distance compensation. Such additional devices however, complicate and make the switch more expensive.

The invention eliminates these disadvantages by arranging the toggle levers in such a way that that the pivot pin of the middle toggle lever, on which the magnet armature acts, makes a straight line movement. This is achieved in that the knee joint is articulated on both sides with rotatably mounted brackets of equal length, their pivot points when the switch is closed on the in their articulation points to the toggle lever erected perpendiculars lie on opposite sides of the knee joint. Through this all distance compensating means become superfluous and the device considerable simplified and cheaper.

The invention is shown in the drawing in an example of application. The double toggle lever a, b, c, d is rotatably mounted at the fixed support points e and f. Since the straps α and d and b and c are of the same length, when the toggle lever is moved, the pivot pin becomes inclined of the pivot pin η opposite and vice versa. The pivot pin / lying in the middle between m and η will therefore describe a straight line when moving. The drawing shows that when the switch is moved from the switched-off position (Fig. 2) to the switched-on position (Fig. 1), the distance between the pivot pin I and the pusher s sitting on the plunger t of the coil r always remains the same. Special distance compensation means are therefore not necessary.

The roller g sits on the pivot pin I so that the impact of the pusher always hits the pivot pin / directly. Instead of a flat one, a pointed pusher can also be used, which then acts on the flattened side of a joint bracket.

The switch is moved from the switched-off position to the switched-on position by lifting the hand lever Ji ₁ whereby the eccentric i connected to it moves the toggle lever against the pressure of the contact spring k until the contacts ν and w touch, the pivot pin η engaging s of the eccentric i occurs and holds it in its position. If the toggle levers b, c are bent upwards by the pusher s in the event of an overcurrent , the lever Ji falls down and the device returns to the switch-off position (Fig. 2) under the pressure of the spring Ji.

In the exemplary embodiment described, the pivot pin / moves perpendicular to the base and to the axis of the magnet coil. From the drawing, however, it can be seen that, depending on the arrangement of the fixed support points e and f, this movement can also take place at an angle, namely in such a way that the pivot pin I either approaches or moves away from the pusher j. This makes it possible to bring the force effect of the magnetic coil r and the pressure that the contact spring k exerts on the toggle lever in a certain ratio to one another; because the pressure of the contact spring Ji decreases with its relaxation when switching off, while the force of attraction of the magnetic coil r on the magnetic core ί is also different at the beginning and at the end of its movement.

Claims (1)

Claim: Electromagnetic overcurrent switch with knee joint contact, characterized in that the knee joint (b, c), on which the pusher of the release magnet acts, is articulated on both sides with rotatably mounted, equally long lugs (a, d) , their pivot points (e, f) at When the switch is closed, lie on the perpendiculars established in their articulation points (m, n) to the toggle lever on opposite sides of the knee joint (b, c). 1 sheet of drawings